ASCII 3D To Feature Class (3D Analyst)
Resumen
Imports 3D features from one or more ASCII files stored in XYZ, XYZI, or GENERATE formats into a new feature class.
Learn more about how ASCII 3D To Feature Class (3D Analyst) works
Ilustración
Uso
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For multiple input files, verify all files are in the same format and have the same geometry type before using this tool.
GENERATE format polygons should be oriented clockwise, have no self-intersections, and be closed (that is, the last vertex is equal to the first). If one of these conditions is not met, the output polygon will not be valid. The Check Geometry tool can be used to validate the resulting features, and the Repair Geometry tool can be used to correct the errors.
Sintaxis
Parámetro | Explicación | Tipo de datos |
input <input; input...> |
The ASCII files or folders containing data in ASCII XYZ, XYZI (with lidar intensity), or 3-D GENERATE format. If a folder is specified, the File Suffix parameter becomes required and all the files that have the same extension as the specified suffix will be used. If multiple files are involved, they need to be in the same format. | Folder; File |
in_file_type | String | |
out_feature_class |
The output feature class. | Feature Class |
out_geometry_type |
The geometry type of the output feature class.
| String |
z_factor (Opcional) |
The factor by which elevation values will be multiplied. This is typically used to convert Z linear units that match those of the XY linear units. The default is 1, which leaves elevation values unchanged. | Double |
input_coordinate_system (Opcional) |
The coordinate system of the input data. The default is an Unknown Coordinate System. If specified, the output may or may not be projected into a different coordinate system. This depends the whether the geoprocessing environment has a coordinate system defined for the location of the target feature class. | Coordinate System |
average_point_spacing (Opcional) |
The average planimetric distance between points of the input. This parameter is only used when the output geometry is set to MULTIPOINT, and its function is to provide a means for grouping the points together. This value is used in conjunction with the points per shape limit to construct a virtual tile system used to group the points. The tile system's origin is based on the domain of the target feature class. Specify the spacing in the horizontal units of the target feature class. | Double |
file_suffix (Opcional) |
The suffix of the files to import from an input folder. This parameter is required when a folder is specified as input. | String |
decimal_separator (Opcional) | The decimal character used in the text file to differentiate the integer of a number from its fractional part.
| String |
Ejemplo de código
The following sample demonstrates the use of this tool in the Python window:
import arcpy from arcpy import env arcpy.CheckOutExtension("3D") env.workspace = "C:/data" arcpy.Ascii3DToFeatureClass_3d("masspnts.txt", "GENERATE", "masspnts.shp", "POINT", 1, "Coordinate Systems/Projected Coordinate Systems/State Plane/NAD 1983 (Feet)/NAD 1983 StatePlane Massachusetts Mainland FIPS 2001 (Feet).prj")
The following sample demonstrates the use of this tool in a stand-alone Python script:
'''**************************************************************************** Name: ASCII3D_to_Feature_Class Example Description: This script demonstrates how to use the ASCII3D_to_Feature_Class tool to create a point feature class from a set of text files in the specified workspace. ****************************************************************************''' # Import system modules` import arcpy from arcpy import env import exceptions, sys, traceback try: # Obtain a license for the ArcGIS 3D Analyst extension arcpy.CheckOutExtension("3D") # Set environment settings env.workspace = "C:/data" # Set Local Variables inFormat = "GENERATE" # Name of the output file outFC = "Pts_from_ASCII.shp" # Geometry of the output feature class outType = "POINT" zFactor = 1 # Coordinate system of the output feature class CS = "Coordinate Systems/Geographic Coordinate Systems/World/WGS 1984.prj" fileSuffix = "ascii.txt" decSep = "DECIMAL_POINT" # Specifies the decimal delimeter # Create list of ASCII files txtList = arcpy.ListFiles("*" + fileSuffix) # Verify the presence of TINs in the list if len(txtList) > 0: # Execute ASCII3D_to_Feature_Class arcpy.ASCII3DToFeatureClass_3d(txtList, inFormat, outFC, outType, zFactor, CS, fileSuffix, decSep) except arcpy.ExecuteError: print arcpy.GetMessages() except: # Get the traceback object tb = sys.exc_info()[2] tbinfo = traceback.format_tb(tb)[0] # Concatenate error information into message string pymsg = 'PYTHON ERRORS:\nTraceback info:\n{0}\nError Info:\n{1}'\ .format(tbinfo, str(sys.exc_info()[1])) msgs = 'ArcPy ERRORS:\n {0}\n'.format(arcpy.GetMessages(2)) # Return python error messages for script tool or Python Window arcpy.AddError(pymsg) arcpy.AddError(msgs)